Opinion

ChatGPT Sounds Exactly Like Us. How Is That a Good Thing?

If you have the neural network read, say, everything ever written, it can get really, really good at communicating.

ChatGPT Sounds Exactly Like Us. How Is That a Good Thing?

Photo Credit: Pixabay

OpenAI made the ChatGPT available for free to the public for testing on November 30

Highlights
  • ChatGPT by OpenAI is a fully formed silicon-based chatbot
  • It can craft jokes, write ad copy, debug computer code, etc.
  • It is described as one of the “tipping points” in the history of AI
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In 1950, Alan Turing, the British computer scientist who cracked the Enigma code during World War II, wrote an article in which he posed a seemingly absurd question: “Can machines think?” The debut late last year of the eerily lifelike ChatGPT appeared to move us closer to an answer. Overnight, a fully formed silicon-based chatbot stepped from the digital shadows. It can craft jokes, write ad copy, debug computer code, and converse about anything and everything. This unsettling new reality is already being described as one of those “tipping points” in the history of artificial intelligence.

But it's been a long time coming. And this particular creation has been gestating in computer science labs for decades.

As a test of his proposition for a thinking machine, Turing described an “imitation game,” where a human being would interrogate two respondents located in another room. One would be a flesh-and-blood human being, the other a computer. The interrogator would be tasked with figuring out which was which by posing questions via a “teleprinter.”

Turing imagined an intelligent computer answering questions with sufficient ease that the interrogator would fail to distinguish between man and machine. While he conceded that his generation's computers couldn't come close to passing the test, he predicted that by century's end, “one will be able to speak of machines thinking without expecting to be contradicted.”

His essay helped launch research into artificial intelligence. But it also sparked a long-running philosophical debate, as Turing's argument effectively sidelined the importance of human consciousness. If a machine could only parrot the appearance of thinking — but not have any awareness of doing so — was it really a thinking machine?

For many years, the practical challenge of building a machine that could play the imitation game overshadowed these deeper questions. The key obstacle was human language, which, unlike the calculation of elaborate mathematical problems, proved remarkably resistant to the application of computing power.

This wasn't for a lack of trying. Harry Huskey, who worked with Turing, returned home to the US to build what the New York Times breathlessly billed as an “electric brain” capable of translating languages. This project, which the federal government helped fund, was driven by Cold War imperatives that made Russian-to-English translation a priority.

The idea that words could be translated in a one-to-one fashion — much like code-breaking — quickly ran headlong into the complexities of syntax, never mind the ambiguities inherent in individual words. Did “fire” refer to flames? End of employment? The trigger of a gun?

Warren Weaver, one of the Americans behind these early efforts, recognized that context was key. If “fire” appeared near “gun,” one could draw certain conclusions. Weaver called these sorts of correlations the “statistical semantic character of language,” an insight that would have significant implications in the coming decades.

The achievements of this first generation are underwhelming by today's standards. The translation researchers found themselves stymied by the variability of language and by 1966, a government-sponsored report concluded that machine translation was a dead end. Funding dried up for years.

But others carried on research in what became known as Natural Language Processing, or NLP. These early efforts sought to demonstrate that a computer, given enough rules to guide its responses, could at least take a stab at playing the imitation game.

Typical of these efforts was a program a group of researchers unveiled in 1961. Dubbed “Baseball,” the program billed itself as a “first step” in enabling users to “ask questions of the computer in ordinary English and to have the computer answer questions directly.” But there was a catch: users could only ask questions about baseball stored in the computer.

This chatbot was soon overshadowed by other creations born in the Jurassic era of digital technology: SIR (Semantic Information Retrieval), which debuted in 1964; ELIZA, which responded to statements with questions in the manner of a caring therapist; and SHRDLU, which permitted a user to instruct the computer to move shapes using ordinary language.

Though crude, many of these early experiments helped drive innovations in how humans and computers might interact — how, for example, a computer could be programmed to “listen” to a query, turn it around, and answer in a way that sounded credible and lifelike, all while reusing the words and ideas posed in the original query.

Others sought to train computers to generate original works of poetry and prose with a mixture of rules and words generated at random. In the 1980s, for example, two programmers published The Policeman's Beard Is Half Constructed, which was presented as the first book written entirely by a computer.

But these demonstrations obscured a more profound revolution brewing in the world of NLP. As computational power increased at an exponential rate and a growing body of works became available in machine-readable format, it became possible to build increasingly sophisticated models that quantified the probability of correlations between words.

This phase, which one account aptly described as “massive data bashing,” took flight with the advent of the internet, which offered an ever-growing corpus of texts that could be used to derive “soft,” probabilistic guidelines that enable a computer to grasp the nuances of language. Instead of hard and fast “rules” that sought to anticipate every linguistic permutation, the new statistical approach adopted a more flexible approach that was, more often than not, correct.

The proliferation of commercial chatbots grew out of this research, as did other applications: basic language recognition, translation software, ubiquitous auto-correct features and other now commonplace features of our increasingly wired lives. But as anyone who has yelled at an artificial airline agent knows, these definitely had their limits.

In the end, it turned out that the only way for a machine to play the imitation game was to mimic the human brain, with its billions of interconnected neurons and synapses. So-called artificial neural networks operate much the same way, sifting data and drawing increasingly strong connections over time via a feedback process.

The key to doing so is another distinctly human tactic: practice, practice, practice. If you train a neural network by having it read books, it can begin to craft sentences that mimic the language in those books. And if you have the neural network read, say, everything ever written, it can get really, really good at communicating.

Which is, more or less, what lies at the heart of ChatGPT. The platform has been trained on a vast corpus of written work. Indeed, the entirety of Wikipedia represents less than 1% of the texts it has hoovered up in its quest to mimic human speech.

Thanks to this training, ChatGPT can arguably triumph in the imitation game. But something rather curious has happened along the way. By Turing's standards, machines can now think. But the only way they have been able to pull off this feat is to become less like machines with rigid rules and more like humans.

It's something worth considering amidst all the angst occasioned by ChatGPT. Imitation is the sincerest form of flattery. But is it the machines we need to fear, or ourselves?

© 2023 Bloomberg LP


Is 2023 the year when you should finally buy a foldable phone? We discuss this and more on Orbital, the Gadgets 360 podcast. Orbital is available on Spotify, Gaana, JioSaavn, Google Podcasts, Apple Podcasts, Amazon Music and wherever you get your podcasts.
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Further reading: Artificial Intelligence, ChatGPT
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